There is the start of a decent thread over on UMGF re: order of neck build and carve. Thought it might be worth seeing how order varies for builders here. My response to the UMGF thread is below, but I'd enjoy hearing how others here as to the how and why of build order for the neck. I should mention that I don't start on the fretboard and neck for cutaway guitars until I have a bound, sanded body, as most of my cutaways have fretboard flush to edge of body.

So generally, there's a bunch of possible variations for 'order of construction' because there are many variations on neck attachment and truss rod, peghead, and heel designs. Proulx butts his necks to body and uses hanger bolts to mount; there's Cumpiano-style barrel nut mounting with tenon, traditional dovetail, so-called double tenon (really a variant on bolt-on/bolt-down), Somogyi sets his neck, drills two locking dowel holes, and glues up, etc. All cause variants of the basic build order. Here's mine:

- Mill blank square- Rough cut neck blank (usually two necks from single 24" x 3" x 4" blank)- Trim neck blank to width (most of my peg heads are over 3-1/2" at headstock, so get trimmed to body fret width + 1/32")- Mill truss rod channel (I use channel to align blank on jig to cut dovetail or tenon...if in dressing the top (fretboard mating surface) I take off some additional wood, I just use a round file as a scraper to refit rod))- Mill dovetail or tenon slot on tablesaw or router table; close headstock end with plug, and mill body end of channel to fit rod to be used- Fit adjustable truss rod- Fit neck to body for alignment with centerline and neck angle; check truss rod access will actually work- For dovetail, trim dovetail length as needed to provide desired space between socket and tail; for M&T, trim tenon to length, mill slots for CF reinforcement and drill barrel nut/hanger holes, etc.)- Set nut location based on completed fretboard config- Add peg head wings if necessary- Plane peghead square and true to top surface of neck and nut location with correct back angle (with a sharp hand plane...I'll also correct any tenon or dovetail top surface alignment issue at this time with a few swipes of the plane as needed)- Glue on head plate (after squaring and beveling the head plate blank as necessary, and setting the nut edge of the head plate back for nut space)- Mill peghead to final thickness (as desired...can also be tapered at this time, or prepped for back strap and back strap added)- Mill peghead to shape- Pre-mill heel to shape if tapered heel used, and trim to cut line for heel cap- Glue on heel cap and trim excess/fit to body when dry- Glue on unfretted fretboard- Carve neck -- Set depth at frets 1 and 10 (pattern rasp and cabinet file) -- Reduce profile between 1 and 10 to line (drawknife, Iwasaki medium rasp, sharp block plane) -- Shape cross section at 1 and 10 (rasp and cabinet file) -- Rough carve heel area and peghead transitions (carver's draw knife, rasps, file) -- 5-side neck shaft between 1 and 10 (drawknife and Iwasaki med rasp) -- Rough carve (mostly pattern rasp and draw knife, then cabinet file and small block plane) cross section between 1 and 10 -- Blend heel and peghead with shaft carve (rasp, cabinet file, scraper) -- Scrape and sand to final shape (short, straight sanding blocks with 80 and 120 papers to fair)- Final fit neck to body to verify alignment/angle and heel cap fit prior to fill and finish- Lay out and drill tuner holes (full diameter for screw-downs and appropriate lead hole/counterbore for bushed tuners)

I am guessing that reading a laundry list of steps and trying to understand the rationale is not that high on priority list, but for newer builders, order of build is one of the keys to getting a decent result. Interesting differences between order of build, but the 'A before B because...' looks pretty similar.

The anticipation of neck construction was for a long time, until I actually did it, fraught with anxiety: after all, it is the correct geometry along all planes that separates guitars from GLOs.

As such, I read about this order and process for quite a long time, on the forums, in American Lutherie, and in the numerous landmark books on the subject of guitar building. Regardless of shaft construction (one-piece, laminated, scarfed headstock, stacked heel, etc.), truss rod type and reinforcement (one-way, two-way, carbon filbert, etc.), or attachment method (dovetail, tenon, butt, bolt, etc.), it seems like there are a few orders of operation that folks feel very strongly about:1. Fretting before or after the fretboard is glued on.2. Shaping the neck before or after the fretboard is glued on.3. Steps 1 or 2 above before or after the neck is attached to the body.

Some of this, of course, is completely wrapped up in the bigger picture of the style/school/tradition of the instrument being built. In many other cases, the order is up to the builder, and I've read many justifications for each.

When I did finally build a neck, I learned that there are some anxiety-prone steps, but for the most part is quite enjoyable. I build a laminated neck, scarfed headstock, two-way rod with CF reinforcement, fretboard fretted, fretboard glued, neck shaped, frets dressed, and bolted on (solid body electric).

The hardest part for me is tapering the fretboard. It has to be dead on, since I carve the neck to the fretboard, and while I always figure out a way to do it I never remember from time to time what I actually did. So I have to figure it out each time from scratch. I should build a jig, I guess. But I can't figure out how to build a jig for that task...

I found that the occasional chip out with the router bit on the fret board bothered me enough that I went to an outside cut with the band saw and sanded to the line on the belt sander. I do use a pattern cutting router bit on the router table to cut the sides of the neck flush with the fingerboard after the fingerboard is glued. Neck woods are generally softer than fingerboard woods and don't tend to chip.

What I am trying to dream up is a jig that automatically tapers both sides the same on the table saw. I already do the sorts of things mentioned, which basically depend on layout being accurate and working/cutting/planing to the line. All the jigs I dream up need to reference one side and cut the other. Referencing the square, uncut side and cutting the other side is easy, it's referencing the now-tapered side to taper the other side that is hard to figure out.

I thought of one just now, actually! The issue is keeping the fretboard dead straight on the jig. I could use a template to drill two register holes on the slotted but over-length fretboard, use the holes to register on the jig dead on 90 degrees, and just flip the fretboard over to cut the second side at exactly the same angle as the first side. I could probably make it so the angle was adjustable, too.

I mark it out on the board, cut just off the line with the bandsaw, and then trim to the line on the jointer. If the board has a little extra length it could all be done on the jointer in the same fashion tapered legs are made.

Before I used the bandsaw/jointer method I use now, I used a simple jig for the table saw that was a little safer than the one linked to. It used a 1/4 inch thick base the fingerboard rode on and could be clamped down and both notches were on the same end. If I'm remembering right the blank was flipped over and put in the second notch to cut the second taper. Since the jig secured the blank there was less chance of the blade grabbing it and pulling your fingers into the tablesaw or throwing it in your face. I tried to do a rough sketch (not to scale) to give an idea of what it looked like. The lower part was just a 1/4 inch thick rectangle and the 1/2 inch thick top piece had the taper and notches cut and is where the hold down mounted to.

This thread has been very educational for me. Has anyone ever done a build order on the body of an acoustic?

I just joined the back plates today, and tomorrow will glue the top plates together.I am assuming that the next step would be to thickness them both, and then start on bracing.While they are drying, I could bend the sides and get them into the mold.